This thesis presents a numerical and analytical study of the stability of incompressible swirling jets. The entrainment of fluid by the jet is modeled numerically by assuming open lateral and outlet boundaries, while the inlet flow is modeled as a Grabowski profile. The effect of a small viscosity near the critical swirl number is studied by means of axisymmetric numerical simulations and asymptotic analysis. A numerical arc-length continuation algorithm based on the recursive projection method (RPM) was implemented in order to identify steady state solutions, study their stability and follow them in parameter space. Continuation versus the swirl parameter reveals the existence of a saddle node bifurcation at high Reynolds number. Asymptoti...
The paper presents numerical investigations of decelerated swirling flows specific to hydraulic turb...
Experimental investigations of laminar swirling jets had revealed a new form of vortex breakdown, na...
This thesis is a contribution to the study of rotating flow dynamics at high Reynolds number. It aim...
This thesis presents a numerical and analytical study of the stability of incompressible swirling je...
13-C-AJFF-GIT-058This is an open access article under the terms of the Creative Commons Attribution ...
Direct numerical simulations ofboth axisymmetric and three-dimensional highly swirling flows are con...
International audienceWe consider incipient vortex breakdown and describe how infinitesimal perturba...
International audienceThe effect of small viscosity on the behavior of the incompressible axisymmetr...
This thesis describes the linear instability analysis and the design of linear optimal control of ti...
This thesis focuses on the stability and the optimisation of time-periodic flows. The resulting fram...
The mechanisms of vorticity concentration, reorientation, and stretching are investigated in a simpl...
International audienceGlobal linear and nonlinear bifurcation analysis is used to revisit the spiral...
We developed a numerical setup to simulate swirling jet flow undergoing vortex breakdown. Our simula...
A new stability approach is developed for a wide class of strongly non-parallel axisymmetric flows o...
International audienceIn this experimental investigation, the dynamics of symmetry-breaking instabil...
The paper presents numerical investigations of decelerated swirling flows specific to hydraulic turb...
Experimental investigations of laminar swirling jets had revealed a new form of vortex breakdown, na...
This thesis is a contribution to the study of rotating flow dynamics at high Reynolds number. It aim...
This thesis presents a numerical and analytical study of the stability of incompressible swirling je...
13-C-AJFF-GIT-058This is an open access article under the terms of the Creative Commons Attribution ...
Direct numerical simulations ofboth axisymmetric and three-dimensional highly swirling flows are con...
International audienceWe consider incipient vortex breakdown and describe how infinitesimal perturba...
International audienceThe effect of small viscosity on the behavior of the incompressible axisymmetr...
This thesis describes the linear instability analysis and the design of linear optimal control of ti...
This thesis focuses on the stability and the optimisation of time-periodic flows. The resulting fram...
The mechanisms of vorticity concentration, reorientation, and stretching are investigated in a simpl...
International audienceGlobal linear and nonlinear bifurcation analysis is used to revisit the spiral...
We developed a numerical setup to simulate swirling jet flow undergoing vortex breakdown. Our simula...
A new stability approach is developed for a wide class of strongly non-parallel axisymmetric flows o...
International audienceIn this experimental investigation, the dynamics of symmetry-breaking instabil...
The paper presents numerical investigations of decelerated swirling flows specific to hydraulic turb...
Experimental investigations of laminar swirling jets had revealed a new form of vortex breakdown, na...
This thesis is a contribution to the study of rotating flow dynamics at high Reynolds number. It aim...